1. Structural Insight into AMPK Regulation: ADP Comes into Play
Xiangshu Jin, Robert Townley, Lawrence Shapiro 
Structure 
Volume 15, Issue 10, Pages (October 2007)
DOI: /j.str
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2. Figure 1 Only ADP Binds in Bateman Domain A of the AMPK γ Subunit
A cartoon representation of the AMPK regulatory timer core is shown with bound (A) ADP; (B) AMP; (C) AMP/ADP; and (D) ATP/ADP. In (A), two orthogonal views are shown. Omit map difference density contoured at 3σ is shown in magenta. The α subunit is colored in yellow, and β is in blue. Bateman domains A and B of the γ subunit are colored in light green and dark green, respectively.
Structure  , DOI: ( /j.str )
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3. Figure 2
Site A Binds ADP Irrespective of the Nucleotide Bound at Site B
Structures of the AMPK regulatory trimer core in complex with (A) AMP/ADP; (B) ADP; and (C) ATP/ADP. The region corresponding to a putative pseudosubstrate sequence (see text) is highlighted in pink. Bateman domain A is shown in light green and Bateman domain B is in dark green. Closest approach distances between nucleotides bound at sites A and B are indicated.
Structure  , DOI: ( /j.str )
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4. Figure 3
ADP Binding
(A) Stereo diagram of ADP binding at site B within Bateman domain B of the γ subunit.
(B) Stereo diagram of ADP binding at site A within Bateman domain A of the γ subunit. The unliganded structure of the β and γ subunits are shown in transparency, illustrating the changes in conformation induced by ligand binding. For clarity of the figure, residue γI55, which contacts the adenine base, is not shown.
(C) The final σA-weighted 2Fo − Fc map contoured at 1.5σ around the ADP bound in site A.
Structure  , DOI: ( /j.str )
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5. Figure 4 Comparison of ADP Binding by Site A and Site B
In this figure, the adenine rings of the ADP molecules bound in site A and site B of two AMPK trimers were superposed in order to enable comparison of ADP-binding residues. Site A and its bound ADP are shown in yellow, and site B and its ligand are in green. All protein atoms are from the γ subunit, except for the ribose-coordinating amino acids of site A, which are from the β subunit.
Structure  , DOI: ( /j.str )
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6. Figure 5
ZMP Binding
(A) Stereo diagram of ZMP bound in site B shown with an Fo − Fc map contoured at 2.5σ.
(B) Stereo diagram of detailed interactions with ZMP; polar interactions are indicated by dashed lines.
Structure  , DOI: ( /j.str )
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7. Figure 6 Sequence Conservation of Nucleotide Interactions in AMPK
(A) Sequence alignment of S. pombe AMPK γ subunit, human AMPK γ1, γ2, and γ3 subunits, and the S. cerevisiae homolog snf4. Residues that interact with ADP in site A are denoted by purple triangles, and residues that interact with ADP in site B are denoted by green triangles. The pink line denotes the pseudosubstrate sequence.
(B) Sequence alignment of the S. pombe AMPK β subunit, human AMPK β1 and β2 subunits, and S. cerevisiae sip2p. Residues that interact with the ADP in site A are denoted by purple triangles.
Structure  , DOI: ( /j.str )
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